1. Appendicular Skeletal
A&P Lab
Week #4
Skeletal System
Part 4.B
Appendicular Skeletal

2. Appendicular Skeleton
Consists of bones of the limbs and supporting elements (or girdles) that connect them to trunk
126 bones
Pectoral girdle (4)
Upper limbs (60)
Pelvic girdle (2)
Lower limbs (60)

3. The bones of the appendicular skeleton
SKELETAL SYSTEM
206
AXIAL
SKELETON 80
Clavicle 2
Pectoral
girdle 4
Scapula 2
Humerus 2
Radius 2
Ulna 2
Upper
limbs 60
Carpal bones 16
Metacarpal bones 10
APPENDICULAR
SKELETON
126
Phalanges
(proximal,
middle, distal) 28
Hip bone
(coxal bone) 2
Pelvic
girdle 2
Femur 2
Patella 2
Tibia 2
Fibula 2
Lower
limbs 60
Tarsal bones 14
Metatarsal bones 10
Phalanges 28

4. Pectoral girdle Pectoral (shoulder) girdle Joins arm to trunk
Consists of clavicle and scapula

5. The relationship of the clavicle to adjacent bones
Jugular notch
Scapula
Humerus
Anterior view

6. Pectoral girdle Clavicle
Originates at superior, lateral border of manubrium
Articulates with acromion of scapula
Characteristics
Sternal end
Pyramid-shaped
Acromial end
Flatter, broader than sternal end
Rough interior surface bearing lines and tubercles

7. Two views of the right clavicle
Superior view
LATERAL
MEDIAL
Acromial
end
Sternal
end
LATERAL
Inferior view
MEDIAL

8. Pectoral girdle Scapula Body Broad, smooth triangle Sides
Superior border
Medial border
Lateral border
Corners
Superior angle
Inferior angle
Lateral angle

9. Pectoral girdle Scapula (continued) Subscapular fossa Glenoid cavity
Anterior surface depression
Glenoid cavity
Cup-shaped
Articulates with humerus
Scapular spine
Ridge on posterior surface

10. Pectoral girdle Scapula (continued) Supraspinous fossa (supra, above)
Infraspinous fossa (infra, below)
Acromion process
End of spine
Coracoid process
Anterior, superior to glenoid cavity

11. Two views of the right scapula
Scapular spine
Acromion
Coracoid
process
Superior
border
Superior
angle
Acromion
Supraspinous fossa
Subscapular fossa
Process that
supports the
cup-shaped
glenoid cavity
Medial
border
Infraspinous fossa
Lateral
border
Anterior view
Posterior view
Inferior
angle

12. A lateral view of the right scapula
Coracoid
process
Glenoid
cavity
Acromion

13. Humerus, radius, ulna
Skeleton of upper limbs includes those of arms, forearms, wrists, and hands
Arm = shoulder to elbow
Forearm = elbow to wrist

14. Humerus, radius, ulna Humerus Head Lesser tubercle Greater tubercle
Proximal end that articulates with glenoid cavity (scapula)
Lesser tubercle
Smaller projection on anterior, medial epiphyseal surface
Greater tubercle
Rounded projection on lateral epiphyseal surface
Establishes lateral contour of shoulder
Intertubercular groove
Between tubercles
Important for muscle attachment

15. Humerus, radius, ulna Humerus (continued) Anatomical neck
Marks extent of joint capsule
Surgical neck
Fractures typically occur here
Deltoid tuberosity
Large, rough elevation on lateral surface
Attachment of deltoid muscle
Radial groove
Crosses inferior end of deltoid tuberosity
Depression marking path of radial nerve

16. Humerus, radius, ulna Humerus (continued) Radial fossa Condyle
Accommodates portion of radial head
Condyle
Capitulum
Lateral surface of condyle
Trochlea (trochlea, pulley)
Medial surface of condyle
Extends from olecranon fossa (posterior) to coronoid fossa (anterior)
These depressions accept projections of ulna

17. Surface features of the right humerus
Anterior
view
Posterior
view
Head
Greater
tubercle
Greater tubercle
Lesser tubercle
Intertubercular groove
Anatomical neck
Surgical neck
Radial groove
Shaft
Deltoid tuberosity
Radial fossa
Coronoid fossa
Olecranon fossa
Lateral epicondyle
Medial epicondyle
Trochlea
Capitulum
Trochlea

18. Humerus, radius, ulna Ulna and radius
Parallel bones that support forearm
In anatomical position, ulna is medial to radius
Shafts connected via interosseus membrane
Proximal radio-ulnar joint
Radial notch on ulna with radial head
Distal radio-ulnar joint
Lateral surface of ulnar head with distal end of radius

19. Surface features of the right ulna and radius
Posterior
view
Anterior
view
Radial head
Trochlear notch
Olecranon
Neck of the radius
Coronoid process
Proximal radio-ulnar joint
Radial notch
at proximal
radio-ulnar joint
Radial tuberosity
Ulna
Radius
Radius
Ulna
Interosseous membrane
Ulnar notch
Distal radio-ulnar joint
Ulnar head
Styloid process of the radius
Ulnar head
Styloid process of the ulna

20. Humerus, radius, ulna Ulna Olecranon Ulnar head
Superior end of ulna
Point of elbow
Ulnar head
Distal, slender, rounded end
Styloid process (styloid, long and pointed)
Posterior, lateral surface of head
Radial notch
Accommodates head of radius

21. Humerus, radius, ulna Ulna (continued) Trochlear notch
Articulates with trochlea of humerus at elbow joint
Coronoid process
Inferior lip of trochlear notch

22. Humerus, radius, ulna Radius Radial head Neck Radial tuberosity
Articulates with capitulum of humerus
During flexion, swings into radial fossa of humerus
Neck
From radial head to tuberosity
Radial tuberosity
Marks attachment site of biceps brachii muscle
Ulnar notch
Site of articulation with ulnar head
Styloid process
Distal radius that articulates with bones of wrist

23. Carpal bones, metacarpals, and phalanges
Carpus
Eight carpal bones arranged in two rows of four bones
Proximal carpal bones
Scaphoid (skaphe, boat)
Lateral border of wrist
Closest to styloid process of radius
Lunate (luna, moon)
Medial to scaphoid
Articulates with radius
Pisiform (pisum, pea)
Anterior to triquetrum
Triquetrum (triquetrus, three-cornered)
Articulates with disc separating ulna from wrist

24. Carpal bones, metacarpals, and phalanges
Carpus (continued)
Distal carpal bones
Trapezium (trapezion, four sided with no parallel sides)
Lateral bone that articulates with scaphoid
Trapezoid
Medial to trapezium
Proximal articulation with scaphoid
Capitate (caput, head)
Largest carpal bone
Between trapezoid and hamate
Hamate
Medial carpal bone

25. The bones of the carpus (wrist)
Proximal Carpal Bones
Scaphoid
Lunate
Pisiform
Triquetrum
Right wrist and hand,
anterior (palmar) view
Radius
Ulna I II
III IV V
Metacarpal
bones
Proximal
phalanx
Distal Carpal Bones
Trapezium
Trapezoid
Capitate
Hamate
Middle
phalanx
Distal
phalanx

26. Carpal bones, metacarpals, and phalanges
Metacarpals (metacarpus, hand)
Articulate with distal carpal bones and support hand
Identified by Roman numerals I–V, from lateral to medial
Distally articulate with proximal finger bones
Phalanges
14 phalanges per hand
Pollex (thumb) has 2 phalanges (proximal and distal)
All other fingers have 3 phalanges (proximal, middle, and distal)

27. (designated I–V) and the phalanges of the hand Radius Ulna
The metacarpal bones
(designated I–V) and the
phalanges of the hand
Radius
Ulna
Proximal Carpal Bones
Scaphoid
Lunate
Triquetrum
Distal Carpal Bones
Pisiform
Trapezium
Trapezoid
Capitate
Hamate I V IV
III II
Proximal phalanx of pollex
Metacarpal bones
Proximal phalanx
Distal phalanx of pollex
Middle phalanx
Right wrist and hand,
posterior (dorsal) view
Distal phalanx

28. Pelvic girdle Pelvic girdle Consists of paired hip bones (coxal bones)
Hip bone formed by fusion of three bones
Ilium
Ischium
Pubis
Acetabulum (acetabulum, vinegar cup)
Concave socket formed by all three fused bones
Articulates with head of femur
Has smooth, cup-shaped surface (lunate surface)
Has superior gap in bony rim (acetabular notch)

29. Pelvic girdle Ilium Iliac spines Gluteal lines Greater sciatic notch
Attachment of important muscles and ligaments
Gluteal lines
Mark attachment of large hip muscles
Greater sciatic notch
Passage of sciatic nerve to lower limb
Iliac crest
Important ridge for muscle attachment

30. Pelvic girdle Ilium (continued) Iliac fossa Auricular surface
Shallow depression that supports abdominal organs and some muscle attachment
Auricular surface
Surface that articulates with sacrum
Iliac tuberosity
Roughened area superior to auricular surface
Has attached ligaments that stabilize sacro-iliac joint
Arcuate line
Continuous with pectineal line of pubis

31. Pelvic girdle Ischium Ischial spine Ischial tuberosity Ischial ramus
Projects superior to sciatic notch
Passage of blood vessels, nerves, and small muscle
Ischial tuberosity
Roughened projection
Supports body weight when seated
Ischial ramus
Bony extension that borders obturator foramen

32. Pelvic girdle Pubis Pectineal line Pubic symphysis
Ridge that ends in pubic tubercle
Pubic symphysis
Connects pubic bones via fibrous cartilage pad
Superior and inferior pubic rami (singular, ramus)
Bony extensions that border obturator foramen

33. A lateral view of the right Os Coxa
An Os Coxa, consists of an
ilium, an ischium, and a pubis
A lateral view of the right Os Coxa
Ilium
POSTERIOR
ANTERIOR
Pubis
Ischium
Iliac crest
Gluteal Lines
Anterior
Inferior
Anterior superior
iliac spine
Posterior
Posterior
superior
iliac spine
Lunate surface
Posterior
inferior
iliac spine
Greater
sciatic
notch
Acetabulum
Ischial spine
Ischial ramus
Ischial tuberosity
Acetabular notch

34. A medial view of the right Os Coxa
Ilium
ANTERIOR
POSTERIOR
Pubis
Ischium
Iliac crest
Iliac tuberosity
Iliac fossa
Auricular surface
of the ilium
Arcuate line of the ilium
Greater sciatic notch
Pectineal line
Obturator foramen
Superior pubic ramus
Pubic symphysis
Ischial ramus
Inferior pubic ramus

35. Pelvis Region Consists of the two Os coxa, sacrum, and coccyx
Has extensive network of ligaments connecting sacrum with:
Iliac crest
Ischial tuberosity
Ischial spine
Arcuate line
Other ligaments tie ilia to lumbar vertebrae

36. The structures of the pelvis
Sacrum
Os Coxa
Ilium
Coccyx
Pubis
Ischium L5
Iliac crest
Iliac
fossa
Ilium
Sacrum
Sacro-iliac joint
Acetabulum
Pubic tubercle
Obturator foramen
Ischium
Pubic symphysis

37. Pelvis Region May be divided into: True (lesser) pelvis
Encloses pelvic cavity
Superior limit extends from base of sacrum, along arcuate line and pectineal line, to pubic symphysis
= Pelvic brim
Encloses pelvic inlet
Pelvic outlet bounded by coccyx, ischial tuberosities, ischial spines, and inferior pubic symphysis
False (greater) pelvis
Consists of area enclosed by bladelike portions of ilia superior to pelvic brim

38. The locations and extents of the true (lesser) pelvis
(in purple) and the false (greater) pelvis
Superior view
Inferior view
Pelvic
outlet
False pelvis
Ischial
spine
Pelvic inlet
Pelvic brim
Pelvic outlet

39. Pelvis Region Sexual differences in pelvic structure
Most related to adaptations for childbearing
Female (compared to male)
Generally smoother and lighter with less prominent markings
Enlarged pelvic outlet
Broader pubic angle, greater than 100°
Less curvature on sacrum and coccyx
Wider, more circular pelvic inlet
Relatively broad, low pelvis
Ilia project farther laterally but not as far superiorly

40. The shapes of the pelvis in females and males
The pelvis of a female
The pelvis of a male
Female
Male
Ischial
spine
Ischial
spine
100°
or more
90°
or less

41. Femur, tibia, and fibula Skeleton of lower limb consists of:
Femur (thigh)
Patella (kneecap)
Tibia and fibula (leg)
Connected with interosseus membrane
Metatarsal bones and phalanges (foot)
Same number of bones as upper limb
Functional anatomy is different due to weight- bearing properties

42. Femur, tibia, and fibula Femur: Longest and heaviest bone in body
Articulates with hip at hip joint
Articulates with tibia at knee joint
Characteristics
Femoral head
Articulates with pelvis at acetabulum
Fovea capitis
Small pit containing ligament attaching head to acetabulum
Neck
Joins shaft at about 125°

43. Femur, tibia, and fibula Femur: (continued) Characteristics
Greater trochanter
Large, rough projection that extends laterally
Attachment site for large tendons
Lesser trochanter
Smaller process that projects posteriorly and medially
Intertrochanteric line
Marks edge of articular capsule on anterior femur
Gluteal tuberosity
Attachment of gluteus maximus muscle

44. Femur, tibia, and fibula Femur: (continued) Characteristics
Linea aspera (aspera, rough)
Attachment of powerful hip muscles
Popliteal surface (poples, hollow of knee)
Flattened triangular area on posterior
Medial and lateral condyles
Participate in knee joint at distal end
Separated by:
Patellar surface (anterior)
Intercondylar fossa (posterior)

45. Landmarks of the right femur
Neck
Fovea capitis
Greater
trochanter
Greater trochanter
Femoral head
Intertrochanteric
crest
Gluteal tuberosity
Intertrochanteric line
Linea aspera
Lesser trochanter
Anterior
view
Posterior
view
Shaft
Lateral supracondylar
ridge
Popliteal surface
Adductor tubercle
Patellar surface
Lateral epicondyle
Medial epicondyle
Intercondylar fossa
Lateral condyle
Medial condyle
Lateral epicondyle
Lateral condyle

46. Femur, tibia, and fibula Patella:
Large sesamoid bone that forms in quadriceps tendon
Characteristics
Base
Attachment of quadriceps tendon
Apex
Attachment of patellar ligament (patella to tibia)
Lateral facet
For lateral condyle of femur
Medial facet
For medial condyle of femur

47. The surface features of the patella
Base
of patella
Lateral facet, for
lateral condyle
of femur
Attachment
area for
quadriceps
tendon
Medial facet, for medial
condyle of femur
Attachment area for
the patellar ligament,
which attaches the
patella to the tibia
Articular surface
of patella
Apex
of patella
Anterior view
Posterior view

48. Femur, tibia, and fibula Tibia: Large medial bone of leg
Characteristics
Intercondylar eminence
Ridge separating lateral and medial tibial condyles
Tibial tuberosity
Attachment of patellar ligament
Anterior margin
Ridge beginning at tibial tuberosity, extending along anterior surface
Medial malleolus (malleolus, hammer)
Medial projection of ankle that supports joint

49. Femur, tibia, and fibula Fibula:
Attachment of muscles that move foot and toes
Provides lateral stability to ankle joint
Characteristics
Head
Articulates with tibia proximally
Lateral malleolus

50. Features of the right tibia and fibula
Superior
tibiofibular joint
Articular surface of
medial tibial condyle
Intercondylar eminence
Lateral tibial condyle
Articular surface of
lateral tibial condyle
Medial tibial condyle
Head of the fibula
Lateral tibial condyle
Tibial tuberosity
Head of fibula
Interosseous membrane
Anterior
view
Posterior
view
Anterior margin
of the tibia
Tibia
Fibula
Fibula
Medial malleolus
of the tibia
Inferior tibiofibular
joint
Lateral malleolus
of the fibula
Lateral malleolus
(fibula)
Inferior
articular surface

51. Tarsals, metatarsals, and phalanges
Angle bones accept body weight from leg and transfer to the ground, distributing through foot bones
Need to be strong yet flexible to deal with locomotive movements

52. Tarsals, metatarsals, and phalanges
Tarsals (7 bones)
Calcaneus (heel bone)
Largest of tarsal bones
Most weight transmitted from tibia to ground through it
Posterior portion is attachment site for calcaneal tendon (Achilles tendon)
Talus
Transmits weight from tibia toward toes
Trochlea of talus bone forms articulation between tibia and talus

53. Tarsals, metatarsals, and phalanges
Tarsals: (continued)
Navicular
Articulates with talus and three cuneiform bones
Cuboid
Articulates with anterior surface of calcaneus
5–7. Cuneiform bones
Medial, intermediate, lateral

54. Tarsals, metatarsals, and phalanges
Articulate with distal surfaces of cuboid and cuneiforms and phalanges
Form distal portion of foot
Identified by Roman numerals I–V from medial to lateral
I–III articulate with cuneiform bones
IV & V articulate with cuboid
Phalanges (toe bones)
Same anatomical organization as fingers (14 bones)
Hallux (great toe) has two bones (proximal and distal)
All other toes have three bones (proximal, middle, distal)

55. The bones of the ankle and foot
The Ankle (Tarsus)
The bones of the ankle and foot
The ankle consists of seven
tarsal bones.
Calcaneus
Talus
Navicular
Trochlea
Cuboid
Cuneiform bones
Metatarsals
Articulations of the cuboid and the
cuneiform bones with the metatarsal
bones V IV
III II I
Metatarsal bones (designated I–V)
Proximal phalanx
Phalanges
Distal phalanx
Proximal, middle, and distal phalanges
Hallux

56. Tarsals, metatarsals, and phalanges
Arches of the foot:
Longitudinal arch:
Transfers weight between toes and calcaneus
Present because of ligaments and tendons connecting calcaneus to distal portions of metatarsals
Lateral (calcaneal) portion has much less curvature than medial (talar) portion
Therefore, medial plantar surface elevated to allow passage of inferior surface muscles, blood vessels, and nerves
Creates transverse arch

57. A lateral view of the right ankle and foot
Cuboid
bone
Navicular
bone
Cuneiform
bones
Metatarsal
bones (I–V)
Lateral surface
of the trochlea
Phalanges
Lateral
view I II
Attachment site for
the calcaneal tendon
(Achilles tendon)
III IV V

58. A medial view of the right ankle and foot
Phalanges
Metatarsal
bones
Medial
cuneiform
bone
Navicular
bone
Talus
Medial
view I
Calcaneus
Longitudinal arch
Transverse arch

59. Tarsals, metatarsals, and phalanges
Arches of the foot: (continued)
Congenital talipes equinovarus (clubfoot)
Arches fail to develop properly due to abnormal muscle development
Tibia, ankle, and foot are affected
Longitudinal arches are exaggerated
Feet turn medially and inverted
Affects 1 in 1000 births
Twice as common in boys
Prompt treatment with casts or other supports can alleviate